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Previous reports examining both gut and lung inflammation support

Previous reports examining both gut and lung inflammation support the idea that restricted Selleck EPZ 6438 or defective Treg conversion can enhance immunopathology [59]. Such limitations of conversion during inflammation raise the possibility that exposure to antigen at a time of acute infection may impair the acquisition of tolerance against commensals that could, in turn, contribute further to the pathological process. Whatever the mix of

factors at play, it is clear that regulation by pathogens is a dynamic process and, under the right circumstances, host immunity can reassert itself to overcome the infection. If changes in the commensal population within the GI tract impact upon systemic immune

responses, as discussed above, then it is not surprising to find that parasitic infections in the same milieu can also exert substantial systemic effects. The influence of infection on ‘bystander’ Ponatinib nmr responses, particularly where mediated through various regulatory cell populations, provides a mechanistic explanation of the more general ‘hygiene hypothesis’ concept that increasing rates of allergy and asthma in western countries could be the consequence of reduced infectious stresses during early childhood [60]. Experimental work has lent strong support for this hypothesis. For example, during GI infection, helminth-driven Treg suppression of effector function protects against subsequent airway inflammation [56]. Similar infections change responses to blood-stage

malaria [61] and interfere with vaccinations [62,63]. Evidence for bystander suppression in human GI helminth infection is also accumulating, with lower allergy rates in infected children [64,65], and lower inflammatory responses to autoantigen in the multiple sclerosis study mentioned above [55]. Indeed, helminth therapy is being trialled as a potential strategy to ameliorate intestinal inflammation in Crohn’s disease and ulcerative colitis [66]. Notably, crotamiton other suppressive cell types are observed in these infections, including ‘regulatory B cells’ and alternatively activated macrophages, although the interdependence and sequence of activation of these other regulatory components have yet to be discerned [67]. Pathogens may therefore have evolved to exploit, and even imitate, our symbiotic relationship with gut flora. As described above, probiotic microorganisms have beneficial effects in the treatment of inflammatory bowel diseases through the induction of Treg populations, and evidence is now emerging that some helminths can act similarly. As with commensal microbes, different helminths exert very different immunological effects and some appear to be less adept in anti-inflammatory action than others, as ongoing research is now establishing.